Exemplo n.º 1
0
bool SpriteData::importData(Json::Value root)
{
    mSpriteHash.clear();
    if (root.empty())
    {
        return false;
    }
    else
    {
        mResourceDirPath = QString::fromStdString(root["resourceDirPath"].asString());

        Json::Value sprites = root["sprites"];
        for(Json::Value::iterator iter = sprites.begin() ; sprites.end() != iter ; iter++)
        {
            QString keyName = QString::fromStdString(iter.key().asString());
            Json::Value data = *iter;
            SpriteDef sDef;

            sDef.mGridX = data["gridX"].asInt();
            sDef.mGridY = data["gridY"].asInt();
            sDef.mCenterX = data["centerX"].asInt();
            sDef.mCenterY = data["centerY"].asInt();
            sDef.mImageID = keyName;

            mSpriteHash.insert(keyName, sDef);
        }
        return true;
    }
}
Exemplo n.º 2
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, BASIC_ATTR_CFG_PATH, root) != 0)
      return -1;

    this->basic_attr_cfg_info_ = new basic_attr_cfg_info[CHAR_CAREER_CNT + 1]();
    for (Json::Value::iterator iter = root.begin();
         iter != root.end();
         ++iter)
    {
      int career = ::atoi(iter.key().asCString());
      if (!util::is_career_ok(career)) return -1;

      basic_attr_cfg_info &baci = this->basic_attr_cfg_info_[career];
      baci.attr_val_[ATTR_T_HP]          = ((*iter)["sheng_ming"]).asInt();
      baci.attr_val_[ATTR_T_MP]          = ((*iter)["fa_li"]).asInt();
      baci.attr_val_[ATTR_T_GONG_JI]     = ((*iter)["gong_ji"]).asInt();
      baci.attr_val_[ATTR_T_FANG_YU]     = ((*iter)["fang_yu"]).asInt();
      baci.attr_val_[ATTR_T_MING_ZHONG]  = ((*iter)["ming_zhong"]).asInt();
      baci.attr_val_[ATTR_T_SHAN_BI]     = ((*iter)["shan_bi"]).asInt();
      baci.attr_val_[ATTR_T_BAO_JI]      = ((*iter)["bao_ji"]).asInt();
      baci.attr_val_[ATTR_T_KANG_BAO]    = ((*iter)["kang_bao"]).asInt();
      baci.attr_val_[ATTR_T_SHANG_MIAN]  = ((*iter)["shang_mian"]).asInt();
    }
    return 0;
  }
Exemplo n.º 3
0
    int load_config(const char *cfg_root)
    {
        Json::Value root;
        if (this->load_json_cfg(cfg_root, CHENG_JIU_CFG_PATH, root) != 0)
            return -1;

        for (Json::Value::iterator iter = root.begin();
                iter != root.end();
                ++iter)
        {
            int cj_id = ::atoi(iter.key().asCString());
            cheng_jiu_obj *cjo = new cheng_jiu_obj();
            this->cheng_jiu_obj_map_.insert(std::make_pair(cj_id, cjo));

            cjo->show_lvl_   = (*iter)["show_lvl"].asInt();
            cjo->value_      = (*iter)["param"].asInt();
            cjo->title_      = (*iter)["title"].asInt();
            cjo->next_cj_id_ = (*iter)["next_index"].asInt();
            cjo->lucky_rate_ = (*iter)["lucky_rate"].asInt();

            if ((cj_id / 1000) != (cjo->next_cj_id_ / 1000))
                return -1;

            char bf[128] = {0};
            ::strncpy(bf, (*iter)["award"].asCString(), sizeof(bf));
            char *tok_p = NULL;
            char *token = NULL;
            for (token = ::strtok_r(bf, ";", &tok_p);
                    token != NULL;
                    token = ::strtok_r(NULL, ";", &tok_p))
            {
                item_amount_bind_t v;
                int bind = 0;
                if (::sscanf(token, "%d,%d,%d",
                             &v.cid_, &v.amount_, &bind) != 3)
                    return -1;
                v.bind_ = bind;
                cjo->award_list_.push_back(v);
            }

            ::memset(bf, 0, sizeof(bf));
            ::strncpy(bf, (*iter)["lucky_award"].asCString(), sizeof(bf));
            tok_p = NULL;
            token = NULL;
            for (token = ::strtok_r(bf, ";", &tok_p);
                    token != NULL;
                    token = ::strtok_r(NULL, ";", &tok_p))
            {
                item_amount_bind_t v;
                int bind = 0;
                if (::sscanf(token, "%d,%d,%d",
                             &v.cid_, &v.amount_, &bind) != 3)
                    return -1;
                v.bind_ = bind;
                cjo->lucky_award_.push_back(v);
            }
        }

        return 0;
    }
Exemplo n.º 4
0
void AI_Machine::init(void) {

	const Json::Value &all_ai_json = CONFIG_INSTANCE->config_json()["ai"]["ai_behavior"];
	if (all_ai_json == Json::Value::null) {
		LOG_ABORT("configure file error.");
	}

	for (Json::Value::iterator iter = all_ai_json.begin(); iter != all_ai_json.end(); ++iter) {
		int ai_id = atoi(iter.key().asCString());
		AI_Data *ai_data = new AI_Data;
		Composite_Node *ai_behavior = new CompositeNode_Selector();
		ai_data->ai_behavior = ai_behavior;
		behavior_init(*iter, ai_behavior);
		ai_data_map_.insert(std::make_pair(ai_id, ai_data));
	}

	{
		Composite_Node* pselect_idle = new CompositeNode_Selector();
		pselect_idle->add_child(CREATE_TERMINATE_NODE(Be_Idle));
		blockhead_ai_ = pselect_idle;
	}

	{
		Composite_Node* psequence_ai_behavior = new CompositeNode_Sequence();
		psequence_ai_behavior->add_child(CREATE_TERMINATE_NODE(Co_Idle_Status));
		psequence_ai_behavior->add_child(CREATE_TERMINATE_NODE(Be_Idle));
		//psequence_ai_behavior->add_child(CREATE_TERMINATE_NODE(Co_Die_Status));
		//psequence_ai_behavior->add_child(CREATE_TERMINATE_NODE(Be_NPC_Recover));
		normal_ai_ = psequence_ai_behavior;
	}

}
Exemplo n.º 5
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, SKILL_CFG_PATH, root) != 0)
      return -1;

    for (int i = CAREER_LI_LIANG; i <= CAREER_ZHI_LI; ++i)
      this->career_skill_map_.insert(i, new ilist<int>());

    for(Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
    {
      int cid = ::atoi(iter.key().asCString());
      if (!clsid::is_skill(cid))
      {
        e_log->error("%d is not skill in %s!", cid, SKILL_CFG_PATH);
        return -1;
      }
      skill_cfg_obj *sco = new skill_cfg_obj();
      this->skill_cfg_obj_map_.insert(std::make_pair(cid, sco));
      if (this->load_json(*iter, sco, cid) != 0)
        return -1;

      if (clsid::is_char_skill(cid)
          && util::is_career_ok(sco->career_))
        this->career_skill_map_.find(sco->career_)->push_back(cid);
    }
    return 0;
  }
Exemplo n.º 6
0
    void InfrastructureFactory::registerFloorTile( const std::string& path ) {
      std::string fullPath = path + "/" + TILE_SYSTEM_ROOT;
      std::ifstream definitionFile;
      definitionFile.exceptions( std::ios::failbit | std::ios::badbit );
      definitionFile.open( fullPath );

      Json::Reader reader;
      Json::Value definitionJSON;
      if( reader.parse( definitionFile, definitionJSON ) ) {
        for( Json::Value::iterator jsonIterator = definitionJSON.begin(); jsonIterator != definitionJSON.end(); ++jsonIterator ) {
          std::string key = jsonIterator.key().asString();
          Json::Value tileDefinition = *jsonIterator;

          if( tileDefinition.isMember( "sound" ) && tileDefinition.isMember( "image" ) ) {
            tileRegistry[ key ] = std::make_shared< Tile >(
              key,
              path + "/" + getVariableOrValue( "sound", tileDefinition[ "sound" ].asString() ),
              path + "/" + getVariableOrValue( "image", tileDefinition[ "image" ].asString() ),
              tileDefinition[ "price" ].asDouble()
            );

            Log::getInstance().debug( "InfrastructureFactory::registerFloorTile" , "Registered " + key + " at " + fullPath );
          } else {
            Log::getInstance().error( "InfrastructureFactory::registerFloorTile", "Unable to create floor tile at path " + fullPath + ": missing fields." );
          }
        }
      } else {
        Log::getInstance().error( "InfrastructureFactory::registerFloorTile", "Unable to parse JSON file " + fullPath );
      }
    }
void SagoSpriteHolder::ReadSpriteFile(const std::string& filename) {
	string fullfile = "sprites/"+filename;
	string content = sago::GetFileContent(fullfile.c_str());
	Json::Value root;   // will contains the root value after parsing
	Json::Reader reader;
	bool parsingSuccessful = reader.parse( content, root );
	if ( !parsingSuccessful ) {
		cerr << "Failed to parse: " << fullfile << "\n"
		     << reader.getFormattedErrorMessages() << "\n";
		return;
	}
	for (Json::Value::iterator it = root.begin(); it != root.end() ; ++it) {
		string spriteName = it.key().asString();
		Json::Value value = (*it);
		string textureName = value.get("texture","fallback").asString();
		int topx = value.get("topx",0).asInt();
		int topy = value.get("topy",0).asInt();
		int height = value.get("height",0).asInt();
		int width = value.get("width",0).asInt();
		int number_of_frames = value.get("number_of_frames",1).asInt();
		int frame_time = value.get("frame_time",1).asInt();
		int originx = value.get("originx",0).asInt();
		int originy = value.get("originy",0).asInt();
		if (number_of_frames < 1) {
			number_of_frames = 1;
		}
		if (frame_time < 1) {
			frame_time = 1;
		}
		std::shared_ptr<sago::SagoSprite> ptr(new SagoSprite(*(data->tex),textureName, {topx,topy,width,height},number_of_frames,frame_time));
		ptr->SetOrigin({originx,originy, 0, 0});
		this->data->sprites[std::string(spriteName)] = ptr;
	}
}
Exemplo n.º 8
0
	Bool HawkJson::Parse(const Char* pData, Int32 iSize)
	{
		Json::Reader jReader;
		Json::Value  sRoot;
		if (jReader.parse(pData, sRoot,false))
		{
			for(Json::Value::iterator it = sRoot.begin(); it != sRoot.end(); it++)
			{
				const Json::Value& sJsonKey = it.key();
				if (sJsonKey.isNull())
					return false;

				AString sKey = sJsonKey.asString();
				const Json::Value& sJsonVal = sRoot[sKey.c_str()];
				if (sJsonVal.isNull())
					return false;

				JsonVal* pVal = new JsonVal;
				if (ParseJsonVal(&sJsonVal, pVal))
				{
					m_sRoot[sKey] = pVal;
				}
				else
				{
					HAWK_DELETE(pVal);
					return false;
				}
			}
			return true;
		}
		return false;
	}
Exemplo n.º 9
0
    void InfrastructureFactory::registerWallpaper( const std::string& path ) {
      std::string fullPath = path + "/" + WALL_SYSTEM_ROOT;
      std::ifstream definitionFile;
      definitionFile.exceptions( std::ios::failbit | std::ios::badbit );
      definitionFile.open( fullPath );

      Json::Reader reader;
      Json::Value definitionJSON;
      if( reader.parse( definitionFile, definitionJSON ) ) {
        for( Json::Value::iterator jsonIterator = definitionJSON.begin(); jsonIterator != definitionJSON.end(); ++jsonIterator ) {
          std::string key = jsonIterator.key().asString();

          if( key != "_grey" ) {
            Json::Value wallpaperDefinition = *jsonIterator;

            if( wallpaperDefinition.isMember( "image" ) ) {
              wallpaperRegistry[ key ] = std::make_shared< Wallpaper >(
                key,
                path + "/" + wallpaperDefinition[ "image" ].asString(),
                wallpaperDefinition[ "price" ].asDouble()
              );

              Log::getInstance().debug( "InfrastructureFactory::registerWallpaper" , "Registered " + key + " at " + fullPath );
            } else {
              Log::getInstance().error( "InfrastructureFactory::registerWallpaper", "Unable to create wallpaper at path " + fullPath + ": missing fields." );
            }
          } else {
            Log::getInstance().warn( "InfrastructureFactory::registerWallpaper", "Cannot register wallpaper: \"_grey\" is a reserved id." );
          }
        }
      } else {
        Log::getInstance().error( "InfrastructureFactory::wallpaper", "Unable to parse JSON file " + fullPath );
      }
    }
Exemplo n.º 10
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, JING_JI_AWARD_CFG_PATH, root) != 0)
      return -1;

    for (Json::Value::iterator iter = root.begin();
         iter != root.end();
         ++iter)
    {
      int id = ::atoi(iter.key().asCString());
      if (id >= MAX_AWARD_KIND_COUNT) return -1;

      jj_award_obj *jao = new jj_award_obj();
      this->jj_award_obj_map_.insert(id, jao);

      jao->rank_min_     = (*iter)["rank_min"].asInt();
      jao->rank_max_     = (*iter)["rank_max"].asInt();
      jao->bind_diamond_ = (*iter)["bind_zuanshi"].asInt();
      jao->coin_         = (*iter)["coin"].asInt();
      jao->ji_fen_       = (*iter)["ji_fen"].asInt();
    }

    return 0;
  }
Exemplo n.º 11
0
bool CPhilipsHue::GetLights(const Json::Value &root)
{
	if (root["lights"].empty())
		return false;

	for (Json::Value::iterator iLight = root["lights"].begin(); iLight != root["lights"].end(); ++iLight)
	{
		Json::Value light = *iLight;
		if (light.isObject())
		{
			std::string szLID = iLight.key().asString();
			int lID = atoi(szLID.c_str());
			_tHueLight tlight;
			tlight.level = 0;
			tlight.sat = 0; // Philips 0- 254, should be corrected to 0 - 255 ?
			tlight.hue = 0; // Philips 0 - 65535, should be converted to 0 - 255 ?
			tlight.on = light["state"]["on"].asBool();
			bool bDoSend = true;
			_eHueLightType LType = HLTYPE_NORMAL;
	
			if (!light["state"]["bri"].empty())
			{
				//Lamp with brightness control
				LType = HLTYPE_DIM;
				int tbri = light["state"]["bri"].asInt();
				if ((tbri != 0) && (tbri != 255))
					tbri += 1; //hue reports 255 as 254
				tlight.level = int((100.0f / 255.0f)*float(tbri));
			}
			if ((!light["state"]["sat"].empty()) && (!light["state"]["hue"].empty()))
			{
				//Lamp with hue/sat control
				LType = HLTYPE_RGBW;
				tlight.sat = light["state"]["sat"].asInt();
				tlight.hue = light["state"]["hue"].asInt();
			}
			if (m_lights.find(lID) != m_lights.end())
			{
				_tHueLight alight = m_lights[lID];
				if (
					(alight.on == tlight.on) &&
					(alight.level == tlight.level) &&
					(alight.sat == tlight.sat) &&
					(alight.hue == tlight.hue)
					)
				{
					bDoSend = false;
				}
			}
			m_lights[lID] = tlight;
			if (bDoSend)
			{
				//_log.Log(LOG_STATUS, "HueBridge state change: tbri = %d, level = %d", tbri, tlight.level);
				InsertUpdateSwitch(lID, LType, tlight.on, tlight.level, tlight.sat, tlight.hue, light["name"].asString(), "");
			}
		}
	}
	return true;
}
Exemplo n.º 12
0
Res ParseValueStringOrMap(const Context* ctx,
                          Config* cfg,
                          const Json::Value& val,
                          const string& equals_string,
                          const string& separator_string,
                          string* out) {
  if (val.isString()) {
    *out = val.asString();
  } else if (val.isArray()) {
    // Evaluate as a lisp expression.
    Res err = EvalToString(ctx, cfg, val, out);
    if (!err.Ok()) {
      err.AppendDetail("in ParseValueStringOrMap(): array eval of '" +
                       val.toStyledString() + "'");
      return err;
    }
  } else if (val.isObject()) {
    // Evaluate as a named-value map.
    bool done_first = false;
    out->clear();
    for (Json::Value::iterator it = val.begin(); it != val.end(); ++it) {
      if (!it.key().isString()) {
        return Res(ERR_PARSE,
                   "ParseValueStringOrMap(): key is not a string: '" +
                   it.key().toStyledString());
      }
      const Json::Value& map_val = *it;
      string result;
      Res err = EvalToString(ctx, cfg, map_val, &result);
      if (!err.Ok()) {
        err.AppendDetail("in ParseValueStringOrMap(): key '" +
                         it.key().toStyledString() + "'");
        return err;
      }
      if (done_first) {
        *out += separator_string;
      }
      *out += it.key().asString();
      *out += equals_string;
      *out += result;
      done_first = true;
    }
  }
  return Res(OK);
}
Exemplo n.º 13
0
 int load_json(Json::Value &root)
 {
   for (Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
   {
     int id = ::atoi(iter.key().asCString());
     _mst_spawn_info *p = new _mst_spawn_info();
     p->idx_ = id;
     p->mst_cid_ = (*iter)["monster_cid"].asInt();
     p->dir_ = (*iter)["toward"].asInt();
     this->mst_spawn_info_map_.insert(p->idx_, p);
   }
   return 0;
 }
Exemplo n.º 14
0
  /**
   * Clumsily define the defaults application-wide in this constructor.
   * Is there a way to do this in bulk using C++11 uniform initialisation?
   */
  ConfigManager::ConfigManager() {
    configRoot[ "fps_overview" ] = 30;
    configRoot[ "vsync_limiter_overview" ] = false;
    configRoot[ "min_log_level" ] = 0;
    configRoot[ "logfile_path" ] = "bluebear.log";
    configRoot[ "logger_mode" ] = 0;
    configRoot[ "viewport_x" ] = 1024;
    configRoot[ "viewport_y" ] = 768;
    configRoot[ "current_locale" ] = "en_US";
    configRoot[ "key_switch_perspective" ] = sf::Keyboard::P;
    configRoot[ "key_move_up" ] = sf::Keyboard::Up;
    configRoot[ "key_move_down" ] = sf::Keyboard::Down;
    configRoot[ "key_move_left" ] = sf::Keyboard::Left;
    configRoot[ "key_move_right" ] = sf::Keyboard::Right;
    configRoot[ "key_terminal" ] = sf::Keyboard::Tilde;
    configRoot[ "key_pause" ] = sf::Keyboard::Num1;
    configRoot[ "key_play" ] = sf::Keyboard::Num2;
    configRoot[ "key_play_fast" ] = sf::Keyboard::Num3;
    configRoot[ "key_rotate_right" ] = sf::Keyboard::E;
    configRoot[ "key_rotate_left" ] = sf::Keyboard::Q;
    configRoot[ "key_zoom_in" ] = sf::Keyboard::Add;
    configRoot[ "key_zoom_out" ] = sf::Keyboard::Subtract;
    configRoot[ "disable_image_cache" ] = false;
    configRoot[ "disable_texture_cache" ] = false;
    configRoot[ "ui_theme" ] = "system/ui/default.theme";
    configRoot[ "max_ingame_terminal_scrollback" ] = 100; 

    // Load settings.json from file
    std::ifstream settingsFile( SETTINGS_PATH );
    Json::Value settingsJSON;
    Json::Reader reader;

    if( reader.parse( settingsFile, settingsJSON ) ) {
      // Override defaults
      // iterators - barf
      for( Json::Value::iterator jsonIterator = settingsJSON.begin(); jsonIterator != settingsJSON.end(); ++jsonIterator ) {
        // BARF
        Json::Value key = jsonIterator.key();
        Json::Value value = *jsonIterator;

        // Store every value as a string because strong typing is a PITA
        configRoot[ key.asString() ] = value;
      }
    }
  }
Exemplo n.º 15
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, MAIL_CFG_PATH, root) != 0)
      return -1;

    for(Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
    {
      int id = ::atoi(iter.key().asCString());
      mail_obj *mo = new mail_obj();
      this->mail_obj_map_.insert(id, mo);
      if (this->load_json(*iter, mo) != 0)
        return -1;
    }
    return 0;
  }
Exemplo n.º 16
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, SCENE_MONSTER_CFG_PATH, root) != 0)
      return -1;

    for(Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
    {
      int scene_cid = ::atoi(iter.key().asCString());
      monster_info *mi = new monster_info();
      this->scene_mst_map_.insert(scene_cid, mi);
      if (mi->load_json(*iter) != 0)
        return -1;
    }
    return 0;
  }
Exemplo n.º 17
0
bool CPhilipsHue::GetScenes(const Json::Value &root)
{
	if (root["scenes"].empty())
		return false;

	int ii=0;
	for (Json::Value::iterator iScene = root["scenes"].begin(); iScene != root["scenes"].end(); ++iScene)
	{
		Json::Value scene = *iScene;
		if (scene.isObject())
		{
			_tHueScene hscene;
			hscene.id = iScene.key().asString();;
			hscene.name = scene["name"].asString();
			hscene.lastupdated = scene["lastupdated"].asString();

			//Strip some info
			size_t tpos = hscene.name.find(" from ");
			if (tpos != std::string::npos)
			{
				hscene.name = hscene.name.substr(0, tpos);
			}

			int sID = ii + 1;
			bool bDoSend = true;
			if (m_scenes.find(hscene.id) != m_scenes.end())
			{
				_tHueScene ascene = m_scenes[hscene.id];
				if (ascene.lastupdated == hscene.lastupdated)
				{
					bDoSend = false;
				}
			}
			m_scenes[hscene.id] = hscene;
			if (bDoSend)
			{
				std::string Name = "Scene " + hscene.name;
				InsertUpdateSwitch(2000 + sID, HLTYPE_SCENE, false, 1000, 0, 0, Name, hscene.id);
			}
		}
		ii++;
	}
	return true;
}
Exemplo n.º 18
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, FA_BAO_DENG_JIE_CFG_PATH, root) != 0)
      return -1;

    for(Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
    {
      int dj = ::atoi(iter.key().asCString());
      fa_bao_dj_cfg_obj *p = new fa_bao_dj_cfg_obj();
      this->fa_bao_dj_map_.insert(dj, p);
      if (dj > FA_BAO_MAX_DJ) return -1;
      Json::Value &jv = *iter;
      char bf[256] = {0};
      ::strncpy(bf, jv["part"].asCString(), sizeof(bf));
      char *tok_p = NULL;
      char *token = NULL;
      int part = 1;
      for (token = ::strtok_r(bf, ",", &tok_p);
           token != NULL;
           token = ::strtok_r(NULL, ",", &tok_p))
      {
        if (part > FA_BAO_PART_CNT) return -1;
        p->part_fa_bao_cid_[part++] = ::atoi(token);
      }
      p->hp_recover_ = jv["sheng_ming_recover"].asInt();
      p->mp_recover_ = jv["fa_li_recover"].asInt();
      p->add_extra_hurt_ = jv["add_extra_hurt"].asInt();
      p->reduce_hurt_ = jv["reduce_hurt"].asInt();
      p->attr_rate_[ATTR_T_HP]          = jv["sheng_ming"].asInt();
      p->attr_rate_[ATTR_T_MP]          = jv["fa_li"].asInt();
      p->attr_rate_[ATTR_T_GONG_JI]     = jv["gong_ji"].asInt();
      p->attr_rate_[ATTR_T_FANG_YU]     = jv["fang_yu"].asInt();
      p->attr_rate_[ATTR_T_MING_ZHONG]  = jv["ming_zhong"].asInt();
      p->attr_rate_[ATTR_T_SHAN_BI]     = jv["shan_bi"].asInt();
      p->attr_rate_[ATTR_T_BAO_JI]      = jv["bao_ji"].asInt();
      p->attr_rate_[ATTR_T_KANG_BAO]    = jv["kang_bao"].asInt();
      p->attr_rate_[ATTR_T_SHANG_MIAN]  = jv["shang_mian"].asInt();
    }
    return 0;
  }
Exemplo n.º 19
0
    void configure( const std::string& jsonPath ) {
      mappings.clear();

      std::ifstream schemaFile;
      // std::ifstream::failure
      schemaFile.exceptions( std::ios::failbit | std::ios::badbit );
      schemaFile.open( jsonPath );

      Json::Value schema;
      Json::Reader reader;

      if( !reader.parse( schemaFile, schema ) ) {
        throw CannotLoadFileException();
      }

      // Create a base image on which to overlay existing images
      Json::Value baseProps = schema[ "base" ];
      Json::Value components = schema[ "mappings" ];

      // Dispose of any old image
      base = sf::Image();
      if( baseProps[ "image" ].isString() ) {
        if( !base.loadFromFile( baseProps[ "image" ].asString() ) ) {
          throw CannotLoadFileException();
        }
      } else {
        base.create( baseProps[ "width" ].asInt(), baseProps[ "height" ].asInt() );
      }

      // Load all components into mappings
      for( Json::Value::iterator jsonIterator = components.begin(); jsonIterator != components.end(); ++jsonIterator ) {
        std::string key = jsonIterator.key().asString();
        Json::Value value = *jsonIterator;

        mappings[ key ] = AtlasMapping{
          ( unsigned int ) value[ "x" ].asInt(),
          ( unsigned int ) value[ "y" ].asInt(),
          ( unsigned int ) value[ "width" ].asInt(),
          ( unsigned int ) value[ "height" ].asInt(),
          ""
        };
      }
    }
Exemplo n.º 20
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, LUCKY_GOODS_DRAW_CFG_PATH, root) != 0)
      return -1;
    
    for(Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
    {
      int cnt = ::atoi(iter.key().asCString());
      if (cnt >= MAX_LUCKY_GOODS_DRAW_CNT) return -1;
      ilist<lucky_goods_draw_cfg_obj *> *p = new ilist<lucky_goods_draw_cfg_obj *>();
      this->draw_item_obj_map_.insert(cnt, p);
      Json::Value &v = *iter;
      for (Json::Value::iterator i_iter = v.begin();
           i_iter != v.end();
           ++i_iter)
      {
        Json::Value &item_v = *i_iter;
        lucky_goods_draw_cfg_obj *pi = new lucky_goods_draw_cfg_obj();
        p->push_back(pi);

        pi->item_cid_ = item_v["item_cid"].asInt();
        if (!item_config::instance()->find(pi->item_cid_))
        {
          e_log->error("item %d not found!", pi->item_cid_);
          return -1;
        }
        pi->min_cnt_ = item_v["min_item_cnt"].asInt();
        pi->max_cnt_ = item_v["max_item_cnt"].asInt();
        if (pi->max_cnt_ < pi->min_cnt_)
        {
          e_log->rinfo("%d max cnt %d:%d is invalid!", pi->item_cid_,
                       pi->max_cnt_, pi->min_cnt_); 
          return -1;
        }
        pi->bind_type_ = item_v["bind"].asInt();
        pi->rate_ = item_v["p"].asInt();
      }
    }
    return 0;
  }
Exemplo n.º 21
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, WILD_BOSS_CFG_PATH, root) != 0)
      return -1;

    for (Json::Value::iterator iter = root.begin();
         iter != root.end();
         ++iter)
    {
      int id = ::atoi(iter.key().asCString());
      wild_boss_config::wild_boss *wb = new wild_boss_config::wild_boss();
      this->wild_boss_list_.push_back(wb);
      wb->index_ = id;
      if (this->load_json(*iter, wb) != 0)
        return -1;
    }
    return 0;
  }
Exemplo n.º 22
0
 int load_config(const char *cfg_root)
 {
   Json::Value root;
   if (this->load_json_cfg(cfg_root, FA_BAO_HE_CHENG_CFG_PATH, root) != 0)
     return -1;
   
   for(Json::Value::iterator iter = root.begin();
       iter != root.end();
       ++iter)
   {
     int cid = ::atoi(iter.key().asCString());
     if (!item_config::instance()->find(cid))
     {
       e_log->error("fa_bao_he_cheng[%d] is nonexistent!", cid);
       return -1;
     }
     fa_bao_he_cheng_cfg_obj *p = new fa_bao_he_cheng_cfg_obj();
     this->fa_bao_he_cheng_map_.insert(std::make_pair(cid, p));
     if (this->load_json(*iter, p) != 0)
       return -1;
   }
   return 0;
 }
Exemplo n.º 23
0
// json -> table
bool json2table(lua_State* tolua_S, Json::Value& val)
{
	if (!lua_istable(tolua_S, -1))
	{
		return false;
	}

	if (val.type() != Json::objectValue)
	{
		return false;
	}

	for (Json::Value::iterator it = val.begin(); it != val.end(); ++it)
	{
		Json::Value& k = it.key();
		Json::Value& v = (*it);
		string& strK = k.asString();

		if (v.type() == Json::objectValue)
		{
			lua_newtable(tolua_S);
			if (!json2table(tolua_S, v))
			{
				lua_pop(tolua_S, 1);
				return false;
			}
		}
		else
		{
			string& strV = v.asString();
			tolua_pushstring(tolua_S, strV.c_str());
		}
		lua_setfield(tolua_S, -2, strK.c_str());
	}

	return true;
}
Exemplo n.º 24
0
  int load_config(const char *cfg_root)
  {
    Json::Value root;
    if (this->load_json_cfg(cfg_root, TIANFU_SKILL_UPGRADE_CFG_PATH, root) != 0)
      return -1;

    for(Json::Value::iterator iter = root.begin();
        iter != root.end();
        ++iter)
    {
      int lvl = ::atoi(iter.key().asCString());
      if (lvl > global_param_cfg::tianfu_lvl_limit)
        return -1;
      tianfu_skill_upgrade_cfg_obj *p = new tianfu_skill_upgrade_cfg_obj();
      this->upgrade_cfg_obj_map_.insert(lvl, p);

      p->cost_ = (*iter)["cost"].asInt();
      p->exp_  = (*iter)["exp"].asInt();
      p->item_cid_ = (*iter)["item_cid"].asInt();
      p->item_cnt_ = (*iter)["item_cnt"].asInt();
      p->item_exp_ = (*iter)["item_exp"].asInt();
    }
    return 0;
  }
Exemplo n.º 25
0
  int load_json(Json::Value &root, skill_cfg_obj *sco, const int skill_cid)
  {
    sco->skill_cid_ = skill_cid;
    sco->career_ = root["career"].asInt();
    sco->hurt_delay_ = root["hurt_delay"].asInt();
    Json::Value &detail_v = root["info"];
    if (detail_v.empty()) return -1;

    for (Json::Value::iterator iter = detail_v.begin();
         iter != detail_v.end();
         ++iter)
    {
      int i = ::atoi(iter.key().asCString());
      Json::Value &dv = *iter;
      if (!dv.empty())
      {
        if (i < 1 || i >= MAX_SKILL_LEVEL)
        {
          e_log->error("skill lvl is invalid! lvl = %d", i);
          return -1;
        }

        skill_detail *sd = new skill_detail();
        sd->cur_lvl_ = i;
        sco->details_[i] = sd;
        if (this->load_json(dv, sd) != 0)
          return -1;
      }
    }
    if (sco->get_detail(1) == NULL)
    {
      e_log->error("skill %d not found lvl 1 info!", skill_cid);
      return -1;
    }
    return 0;
  }
Exemplo n.º 26
0
 void Furnitures::loadJsonSheet(const std::string& jsonSheetPath, const double zoomX, const double zoomY)
 {
     Json::Reader jsonReader;
     Json::Value jsonRoot;
     ifstream jsonFile;
     
     jsonFile.open(jsonSheetPath.c_str(), ios::binary);
     if (jsonFile.is_open())
     {
         if (jsonReader.parse(jsonFile, jsonRoot))
         {
             for(Json::Value::iterator it = jsonRoot.begin(); it != jsonRoot.end(); it++)
             {
                 SDL_Rect rect;
                 rect = {(*it)["x"].asInt(), (*it)["y"].asInt(), (*it)["w"].asInt(), (*it)["h"].asInt()};
                 
                 if (zoomX != 1 && zoomY != 1)
                 {
                     rect.x *= zoomX;
                     rect.y *= zoomY;
                     rect.w *= zoomX;
                     rect.h *= zoomY;
                 }
                 
                 furnituresPixelDimensions.insert(make_pair(it.key().asString(), rect));
             }
         }
     }
     else
     {
         SDL_LogMessage(SDL_LOG_CATEGORY_APPLICATION, SDL_LOG_PRIORITY_ERROR,
                        "Error reading Json SpriteSheet file in : %s because:", jsonSheetPath.c_str(), strerror( errno ));
         throw error::READ_SPRITESHEETS_JSON_FAIL;
     }
     
 }    
Exemplo n.º 27
0
int gameplay_ctrl_db_proc::load_activity_data()
{
	ctrl_data::instance()->map_act_.clear();


    Json::Value root;
    Game_Data::Container_Mgr::instance()->get_json_value_by_file_name( root, ACTIVITY_CFG_FILE);

  for (Json::Value::iterator p = root.begin();
       p != root.end();
       p++)
  {
    //load each activity
    std::string s_act_id = p.key().asCString();
    activity *act = new activity;
    act->id_ = atoi(s_act_id.c_str());
  
    if (load_act_item(act,root[s_act_id]) == 0)
      gameplay_ctrl_data_mgr::load_act_item(act);
  }

  cout << "\n load activity data over----------------" << endl;
  return 0; 
}
Exemplo n.º 28
0
ShipType::ShipType(const Id &_id, const std::string &path)
{
	Json::Reader reader;
	Json::Value data;

	isGlobalColorDefined = false;

	auto fd = FileSystem::gameDataFiles.ReadFile(path);
	if (!fd) {
		Output("couldn't open ship def '%s'\n", path.c_str());
		return;
	}

	if (!reader.parse(fd->GetData(), fd->GetData()+fd->GetSize(), data)) {
		Output("couldn't read ship def '%s': %s\n", path.c_str(), reader.getFormattedErrorMessages().c_str());
		return;
	}

	// determine what kind (tag) of ship this is.
	const std::string tagStr = data.get("tag", "").asString();
	if( tagStr.empty() || strcasecmp(tagStr.c_str(), "ship")==0 ) {
		tag = TAG_SHIP;
	} else if( strcasecmp(tagStr.c_str(), "static")==0 ) {
		tag = TAG_STATIC_SHIP;
	} else if( strcasecmp(tagStr.c_str(), "missile")==0 ) {
		tag = TAG_MISSILE;
	}

	id = _id;
	name = data.get("name", "").asString();
	shipClass = data.get("ship_class", "").asString();
	manufacturer = data.get("manufacturer", "").asString();
	modelName = data.get("model", "").asString();
	cockpitName = data.get("cockpit", "").asString();

	linThrust[THRUSTER_REVERSE] = data.get("reverse_thrust", 0.0f).asFloat();
	linThrust[THRUSTER_FORWARD] = data.get("forward_thrust", 0.0f).asFloat();
	linThrust[THRUSTER_UP] = data.get("up_thrust", 0.0f).asFloat();
	linThrust[THRUSTER_DOWN] = data.get("down_thrust", 0.0f).asFloat();
	linThrust[THRUSTER_LEFT] = data.get("left_thrust", 0.0f).asFloat();
	linThrust[THRUSTER_RIGHT] = data.get("right_thrust", 0.0f).asFloat();
	angThrust = data.get("angular_thrust", 0.0f).asFloat();

	// Parse global thrusters color
	bool error = false;
	int parse = 0;
	for( Json::Value::iterator thruster_color = data["thruster_global_color"].begin() ; thruster_color != data["thruster_global_color"].end() ; ++thruster_color ) {
		const std::string colorchannel = thruster_color.key().asString();
		if (colorchannel.length()!=1) {
			error = true;
			break;
		}
		if (colorchannel.at(0) == 'r') {
			globalThrusterColor.r = data["thruster_global_color"].get(colorchannel, 0).asInt();
			parse++;
			continue;
		} else if (colorchannel.at(0) == 'g') {
			globalThrusterColor.g = data["thruster_global_color"].get(colorchannel, 0).asInt();
			parse++;
			continue;
		} else if (colorchannel.at(0) == 'b') {
			globalThrusterColor.b = data["thruster_global_color"].get(colorchannel, 0).asInt();
			parse++;
			continue;
		} else {
			// No 'r', no 'g', no 'b', no good :/
			error = true;
			break;
		}
	}
	if (error==true) {
		Output("In file \"%s.json\" global thrusters custom color must be \"r\",\"g\" and \"b\"\n", modelName.c_str());
	} else if (parse>0 && parse<3) {
		Output("In file \"%s.json\" global thrusters custom color is malformed\n", modelName.c_str());
	} else if (parse==3) {
		globalThrusterColor.a = 255;
		isGlobalColorDefined = true;
	}
	// Parse direction thrusters color
	for (int i=0; i<THRUSTER_MAX; i++) isDirectionColorDefined[i]=false;
	error = false;
	for( Json::Value::iterator thruster_color = data["thruster_direction_color"].begin() ; thruster_color != data["thruster_direction_color"].end() ; ++thruster_color ) {
		const std::string th_color_dir = thruster_color.key().asString();
		Json::Value dir_color = data["thruster_direction_color"].get(th_color_dir, 0);
		Color color;
		if (!dir_color.isMember("r")||!dir_color.isMember("g")||!dir_color.isMember("b")) {
			error = true;
			continue /* for */;
		} else {
			color.r = dir_color["r"].asInt();
			color.g = dir_color["g"].asInt();
			color.b = dir_color["b"].asInt();
			color.a = 255;
		}
		if (th_color_dir.find("forward")!=std::string::npos) {
			isDirectionColorDefined[THRUSTER_FORWARD]=true;
			directionThrusterColor[THRUSTER_FORWARD]= color;
		}
		if (th_color_dir.find("retro")!=std::string::npos) {
			isDirectionColorDefined[THRUSTER_REVERSE]=true;
			directionThrusterColor[THRUSTER_REVERSE]= color;
		}
		if (th_color_dir.find("left")!=std::string::npos) {
			isDirectionColorDefined[THRUSTER_LEFT]=true;
			directionThrusterColor[THRUSTER_LEFT]= color;
		}
		if (th_color_dir.find("right")!=std::string::npos) {
			isDirectionColorDefined[THRUSTER_RIGHT]=true;
			directionThrusterColor[THRUSTER_RIGHT]= color;
		}
		if (th_color_dir.find("up")!=std::string::npos) {
			isDirectionColorDefined[THRUSTER_UP]=true;
			directionThrusterColor[THRUSTER_UP]= color;
		}
		if (th_color_dir.find("down")!=std::string::npos) {
			isDirectionColorDefined[THRUSTER_DOWN]=true;
			directionThrusterColor[THRUSTER_DOWN]= color;
		}
	}
	if (error==true) {
		for (int i=0; i<THRUSTER_MAX; i++) isDirectionColorDefined[i]=false;
		Output("In file \"%s.json\" directional thrusters custom color must be \"r\",\"g\" and \"b\"\n", modelName.c_str());
	}
	// invert values where necessary
	linThrust[THRUSTER_FORWARD] *= -1.f;
	linThrust[THRUSTER_LEFT] *= -1.f;
	linThrust[THRUSTER_DOWN] *= -1.f;
	// angthrust fudge (XXX: why?)
	angThrust = angThrust * 0.5f;

	hullMass = data.get("hull_mass", 100).asInt();
	capacity = data.get("capacity", 0).asInt();
	fuelTankMass = data.get("fuel_tank_mass", 5).asInt();

	for( Json::Value::iterator slot = data["slots"].begin() ; slot != data["slots"].end() ; ++slot ) {
		const std::string slotname = slot.key().asString();
		slots[slotname] = data["slots"].get(slotname, 0).asInt();
	}

	for( Json::Value::iterator role = data["roles"].begin(); role != data["roles"].end(); ++role ) {
		const std::string rolename = role.key().asString();
		roles[rolename] = data["roles"].get(rolename, 0).asBool();
	}

	for(int it=0;it<4;it++) thrusterUpgrades[it] = 1.0 + (double(it)/10.0);
	for( Json::Value::iterator slot = data["thrust_upgrades"].begin() ; slot != data["thrust_upgrades"].end() ; ++slot ) {
		const std::string slotname = slot.key().asString();
		const int index = Clamp(atoi(&slotname.c_str()[9]), 1, 3);
		thrusterUpgrades[index] = data["thrust_upgrades"].get(slotname, 0).asDouble();
	}

	atmosphericPressureLimit = data.get("atmospheric_pressure_limit", 10.0).asDouble();	// 10 atmosphere is about 90 metres underwater (on Earth)

	{
		const auto it = slots.find("engine");
		if (it != slots.end())
		{
			it->second = Clamp(it->second, 0, 1);
		}
	}

	effectiveExhaustVelocity = data.get("effective_exhaust_velocity", -1.0f).asFloat();
	const float thruster_fuel_use = data.get("thruster_fuel_use", -1.0f).asFloat();

	if(effectiveExhaustVelocity < 0 && thruster_fuel_use < 0) {
		// default value of v_c is used
		effectiveExhaustVelocity = 55000000;
	} else if(effectiveExhaustVelocity < 0 && thruster_fuel_use >= 0) {
		// v_c undefined and thruster fuel use defined -- use it!
		effectiveExhaustVelocity = GetEffectiveExhaustVelocity(fuelTankMass, thruster_fuel_use, linThrust[Thruster::THRUSTER_FORWARD]);
	} else {
		if(thruster_fuel_use >= 0) {
			Output("Warning: Both thruster_fuel_use and effective_exhaust_velocity defined for %s, using effective_exhaust_velocity.\n", modelName.c_str());
		}
	}

	baseprice = data.get("price", 0.0).asDouble();
	minCrew = data.get("min_crew", 1).asInt();
	maxCrew = data.get("max_crew", 1).asInt();
	hyperdriveClass = data.get("hyperdrive_class", 1).asInt();
}
Exemplo n.º 29
0
bool CPhilipsHue::GetGroups(const Json::Value &root)
{
	//Groups (0=All)

	if (root["groups"].empty())
		return false;

	for (Json::Value::iterator iGroup = root["groups"].begin(); iGroup != root["groups"].end(); ++iGroup)
	{
		Json::Value group = *iGroup;
		if (group.isObject())
		{
			std::string szGID = iGroup.key().asString();
			int gID = atoi(szGID.c_str());
			bool bIsOn = false;
			int tbri = 255;
			int tsat = 255;
			int thue = 255;

			if (!group["action"]["on"].empty())
				bIsOn = group["action"]["on"].asBool();
			if (!group["action"]["bri"].empty())
				tbri = group["action"]["bri"].asInt();
			if (!group["action"]["sat"].empty())
				tsat = group["action"]["sat"].asInt();
			if (!group["action"]["hue"].empty())
				thue = group["action"]["hue"].asInt();
			if ((tbri != 0) && (tbri != 255))
				tbri += 1; //hue reports 255 as 254
			int BrightnessLevel = int((100.0f / 255.0f)*float(tbri));
			_tHueLight tstate;
			if (bIsOn)
			{
				tstate.cmd = (BrightnessLevel != 0) ? Limitless_SetBrightnessLevel : Limitless_LedOn;
			}
			else
				tstate.cmd = Limitless_LedOff;
			tstate.level = BrightnessLevel;
			tstate.sat = tsat;
			tstate.hue = thue;
			bool bDoSend = true;
			if (m_groups.find(gID) != m_groups.end())
			{
				_tHueGroup agroup = m_groups[gID];
				if (
					(agroup.gstate.cmd == tstate.cmd) &&
					(agroup.gstate.level == tstate.level) &&
					(agroup.gstate.sat == tstate.sat) &&
					(agroup.gstate.hue == tstate.hue)
					)
				{
					bDoSend = false;
				}
			}
			m_groups[gID].gstate = tstate;
			if (bDoSend)
			{
				std::string Name = "Group " + group["name"].asString();
				InsertUpdateSwitch(1000 + gID, HLTYPE_RGBW, bIsOn, BrightnessLevel, tsat, thue, Name, "");
			}
		}
	}
	//Special Request for Group0 (All Lights)
	std::stringstream sstr2;
	sstr2 << "http://" << m_IPAddress
		<< ":" << m_Port
		<< "/api/" << m_UserName
		<< "/groups/0";
	std::string sResult;
	std::vector<std::string> ExtraHeaders;
	if (!HTTPClient::GET(sstr2.str(), ExtraHeaders, sResult))
	{
		//No group all(0)
		return true;
	}
	Json::Reader jReader;
	Json::Value root2;
	bool ret = jReader.parse(sResult, root2);
	ret = jReader.parse(sResult, root2);
	if (!ret)
	{
		_log.Log(LOG_ERROR, "Philips Hue: Invalid data received, or invalid IPAddress/Username!");
		return false;
	}

	if (sResult.find("\"error\":") != std::string::npos)
	{
		//We had an error
		_log.Log(LOG_ERROR, "Philips Hue: Error received: %s", root2[0]["error"]["description"].asString().c_str());
		return false;
	}

	if (sResult.find("lights") == std::string::npos)
	{
		return false;
	}
	bool bIsOn = false;
	int tbri = 255;
	int tsat = 255;
	int thue = 255;

	if (!root2["action"]["on"].empty())
		bIsOn = root2["action"]["on"].asBool();
	if (!root2["action"]["bri"].empty())
		tbri = root2["action"]["bri"].asInt();
	if (!root2["action"]["sat"].empty())
		tsat = root2["action"]["sat"].asInt();
	if (!root2["action"]["hue"].empty())
		thue = root2["action"]["hue"].asInt();
	if ((tbri != 0) && (tbri != 255))
		tbri += 1; //hue reports 255 as 254
	int BrightnessLevel = int((100.0f / 255.0f)*float(tbri));
	_tHueLight tstate;
	if (bIsOn)
	{
		tstate.cmd = (BrightnessLevel != 0) ? Limitless_SetBrightnessLevel : Limitless_LedOn;
	}
	else
		tstate.cmd = Limitless_LedOff;
	tstate.level = BrightnessLevel;
	tstate.sat = tsat;
	tstate.hue = thue;
	bool bDoSend = true;
	int gID = 0;
	if (m_groups.find(gID) != m_groups.end())
	{
		_tHueGroup agroup = m_groups[gID];
		if (
			(agroup.gstate.cmd == tstate.cmd) &&
			(agroup.gstate.level == tstate.level) &&
			(agroup.gstate.sat == tstate.sat) &&
			(agroup.gstate.hue == tstate.hue)
			)
		{
			bDoSend = false;
		}
	}
	m_groups[gID].gstate = tstate;
	if (bDoSend)
	{
		std::string Name = "Group All Lights";
		InsertUpdateSwitch(1000 + gID, HLTYPE_RGBW, bIsOn, BrightnessLevel, tsat, thue, Name,"");
	}
	return true;
}
Exemplo n.º 30
0
bool CPhilipsHue::GetLights(const Json::Value &root)
{
	if (root["lights"].empty())
		return false;

	for (Json::Value::iterator iLight = root["lights"].begin(); iLight != root["lights"].end(); ++iLight)
	{
		Json::Value light = *iLight;
		if (light.isObject())
		{
			std::string szLID = iLight.key().asString();
			int lID = atoi(szLID.c_str());
			_tHueLight tlight;
			int BrightnessLevel = 0;
			tlight.level = 0;
			tlight.sat = 0;
			tlight.hue = 0;
			int tbri = 0;
			bool bIsOn = light["state"]["on"].asBool();
			bool bDoSend = true;
			_eHueLightType LType = HLTYPE_NORMAL;
			
			if (bIsOn)
			{
				tlight.cmd = light2_sOn;
			}
			else
				tlight.cmd = light2_sOff;
				
			if (!light["state"]["bri"].empty())
			{
				//Lamp with brightness control
				LType = HLTYPE_DIM;
				tbri = light["state"]["bri"].asInt();
				if ((tbri != 0) && (tbri != 255))
					tbri += 1; //hue reports 255 as 254
				tlight.level = tbri;
				BrightnessLevel = int((100.0f / 255.0f)*float(tbri));
				if (bIsOn)
				{
					tlight.cmd = (BrightnessLevel != 0) ? light2_sSetLevel : light2_sOn;
				}
				else
					tlight.cmd = light2_sOff;
			}
			if ((!light["state"]["sat"].empty()) && (!light["state"]["hue"].empty()))
			{
				//Lamp with hue/sat control
				LType = HLTYPE_RGBW;
				tlight.sat = light["state"]["sat"].asInt();
				tlight.hue = light["state"]["hue"].asInt();
				if (bIsOn)
				{
					tlight.cmd = (BrightnessLevel != 0) ? Limitless_SetBrightnessLevel : Limitless_LedOn;
				}
				else
					tlight.cmd = Limitless_LedOff;
			}
			if (m_lights.find(lID) != m_lights.end())
			{
				_tHueLight alight = m_lights[lID];
				if (
					(alight.cmd == tlight.cmd) &&
					(alight.level == tlight.level) &&
					(alight.sat == tlight.sat) &&
					(alight.hue == tlight.hue)
					)
				{
					bDoSend = false;
				}
			}
			m_lights[lID] = tlight;
			if (bDoSend)
			{
				InsertUpdateSwitch(lID, LType, bIsOn, BrightnessLevel, tlight.sat, tlight.hue, light["name"].asString(), "");
			}
		}
	}
	return true;
}